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  Beta-barrel mobility underlies closure of the voltage-dependent anion channel.

Zachariae, U., Schneider, R., Briones, R., Gattin, Z., Demers, J. P., Giller, K., et al. (2012). Beta-barrel mobility underlies closure of the voltage-dependent anion channel. Structure, 20(9), 1540-1549. doi:10.1016/j.str.2012.06.015.

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Item Permalink: https://hdl.handle.net/11858/00-001M-0000-000F-A67C-D Version Permalink: https://hdl.handle.net/11858/00-001M-0000-0028-1F48-6
Genre: Journal Article

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 Creators:
Zachariae, U.1, Author           
Schneider, R.2, Author           
Briones, R.1, Author           
Gattin, Z.3, Author           
Demers, J. P.3, Author           
Giller, K.2, Author           
Maier, E., Author
Zweckstetter, M.4, Author           
Griesinger, C.2, Author           
Becker, S.2, Author           
Benz, R., Author
de Groot, B. L.1, Author           
Lange, A.3, Author           
Affiliations:
1Research Group of Computational Biomolecular Dynamics, MPI for biophysical chemistry, Max Planck Society, ou_578573              
2Department of NMR Based Structural Biology, MPI for biophysical chemistry, Max Planck Society, ou_578567              
3Research Group of Solid-state NMR, MPI for biophysical chemistry, Max Planck Society, ou_persistent35              
4Research Group of Protein Structure Determination using NMR, MPI for biophysical chemistry, Max Planck Society, ou_578571              

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 Abstract: The voltage-dependent anion channel (VDAC) is the major protein in the outer mitochondrial membrane, where it mediates transport of ATP and ADP. Changes in its permeability, induced by voltage or apoptosis-related proteins, have been implicated in apoptotic pathways. The three-dimensional structure of VDAC has recently been determined as a 19-stranded β-barrel with an in-lying N-terminal helix. However, its gating mechanism is still unclear. Using solid-state NMR spectroscopy, molecular dynamics simulations, and electrophysiology, we show that deletion of the rigid N-terminal helix sharply increases overall motion in VDAC's β-barrel, resulting in elliptic, semicollapsed barrel shapes. These states quantitatively reproduce conductance and selectivity of the closed VDAC conformation. Mutation of the N-terminal helix leads to a phenotype intermediate to the open and closed states. These data suggest that the N-terminal helix controls entry into elliptic β-barrel states which underlie VDAC closure. Our results also indicate that β-barrel channels are intrinsically flexible.

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Language(s): eng - English
 Dates: 2012-09-05
 Publication Status: Issued
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 Rev. Type: Peer
 Identifiers: DOI: 10.1016/j.str.2012.06.015
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Title: Structure
Source Genre: Journal
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Pages: - Volume / Issue: 20 (9) Sequence Number: - Start / End Page: 1540 - 1549 Identifier: -